// Copyright (c) Microsoft Open Technologies, Inc. All rights reserved. See License.txt in the project root for license information.

namespace System.Data.Entity.SqlServer.SqlGen
{
    using System.Collections.Generic;
    using System.Diagnostics;

    // <summary>
    // This class is used for building the SELECT clause of a Sql Statement
    // It is used to gather information about required and optional columns
    // and whether TOP and DISTINCT should be specified.
    // The underlying SqlBuilder is used for gathering the required columns.
    // The list of OptionalColumns is used for gathering the optional columns.
    // Whether a given OptionalColumn should be written is known only after the entire
    // command tree has been processed.
    // The IsDistinct property indicates that we want distinct columns.
    // This is given out of band, since the input expression to the select clause
    // may already have some columns projected out, and we use append-only SqlBuilders.
    // The DISTINCT is inserted when we finally write the object into a string.
    // Also, we have a Top property, which is non-null if the number of results should
    // be limited to certain number. It is given out of band for the same reasons as DISTINCT.
    // </summary>
    internal class SqlSelectClauseBuilder : SqlBuilder
    {
        #region Fields and Properties

        private List<OptionalColumn> m_optionalColumns;

        internal void AddOptionalColumn(OptionalColumn column)
        {
            if (m_optionalColumns == null)
            {
                m_optionalColumns = new List<OptionalColumn>();
            }
            m_optionalColumns.Add(column);
        }

        private TopClause m_top;

        internal TopClause Top
        {
            get { return m_top; }
            set
            {
                Debug.Assert(m_top == null, "SqlSelectStatement.Top has already been set");
                m_top = value;
            }
        }

        private SkipClause m_skip;

        internal SkipClause Skip
        {
            get { return m_skip; }
            set
            {
                Debug.Assert(m_skip == null, "SqlSelectStatement.Skip has already been set");
                m_skip = value;
            }
        }

        // <summary>
        // Do we need to add a DISTINCT at the beginning of the SELECT
        // </summary>
        internal bool IsDistinct { get; set; }

        // <summary>
        // Whether any columns have been specified.
        // </summary>
        public override bool IsEmpty
        {
            get { return (base.IsEmpty) && (m_optionalColumns == null || m_optionalColumns.Count == 0); }
        }

        private readonly Func<bool> m_isPartOfTopMostStatement;

        #endregion

        #region Constructor

        internal SqlSelectClauseBuilder(Func<bool> isPartOfTopMostStatement)
        {
            m_isPartOfTopMostStatement = isPartOfTopMostStatement;
        }

        #endregion

        #region ISqlFragment Members

        // <summary>
        // Writes the string representing the Select statement:
        // SELECT (DISTINCT) (TOP topClause) (optionalColumns) (requiredColumns)
        // If Distinct is specified or this is part of a top most statement
        // all optional columns are marked as used.
        // Optional columns are only written if marked as used.
        // In addition, if no required columns are specified and no optional columns are
        // marked as used, the first optional column is written.
        // </summary>
        public override void WriteSql(SqlWriter writer, SqlGenerator sqlGenerator)
        {
            writer.Write("SELECT ");
            if (IsDistinct)
            {
                writer.Write("DISTINCT ");
            }

            if (Top != null && Skip == null)
            {
                Top.WriteSql(writer, sqlGenerator);
            }

            if (IsEmpty)
            {
                Debug.Assert(false); // we have removed all possibilities of SELECT *.
                writer.Write("*");
            }
            else
            {
                //Print the optional columns if any
                var printedAny = WriteOptionalColumns(writer, sqlGenerator);

                if (!base.IsEmpty)
                {
                    if (printedAny)
                    {
                        writer.Write(", ");
                    }
                    base.WriteSql(writer, sqlGenerator);
                }
                //If no optional columns were printed and there were no other columns, 
                // print at least the first optional column
                else if (!printedAny)
                {
                    m_optionalColumns[0].MarkAsUsed();
                    m_optionalColumns[0].WriteSqlIfUsed(writer, sqlGenerator, "");
                }
            }
        }

        #endregion

        #region Private Helper Methods

        // <summary>
        // Writes the optional columns that are used.
        // If this is the topmost statement or distict is specifed as part of the same statement
        // all optoinal columns are written.
        // </summary>
        // <returns> Whether at least one column got written </returns>
        private bool WriteOptionalColumns(SqlWriter writer, SqlGenerator sqlGenerator)
        {
            if (m_optionalColumns == null)
            {
                return false;
            }

            if (m_isPartOfTopMostStatement() || IsDistinct)
            {
                foreach (var column in m_optionalColumns)
                {
                    column.MarkAsUsed();
                }
            }

            var separator = "";
            var printedAny = false;
            foreach (var column in m_optionalColumns)
            {
                if (column.WriteSqlIfUsed(writer, sqlGenerator, separator))
                {
                    printedAny = true;
                    separator = ", ";
                }
            }
            return printedAny;
        }

        #endregion
    }
}
